/** * @file * * @brief Capture Engine Component of the RTEMS Measurement and * Monitoring System * * This is the Capture Engine component of the RTEMS Measurement and * Monitoring system. */ /* ------------------------------------------------------------------------ Copyright 2002, 2016 Chris Johns . All rights reserved. COPYRIGHT (c) 1989-2014 On-Line Applications Research Corporation (OAR). The license and distribution terms for this file may be found in the file LICENSE in this distribution. This software with is provided ``as is'' and with NO WARRANTY. ------------------------------------------------------------------------ RTEMS Performance Monitoring and Measurement Framework. This is the Capture Engine component. */ #ifndef __CAPTURE_H_ #define __CAPTURE_H_ #include #include #include /** * @defgroup libmisc_capture RTEMS Capture Engine * * @ingroup RTEMSAPITracing * * Capture Engine Component of the RTEMS Measurement and Monitoring System */ /**@{*/ #ifdef __cplusplus extern "C" { #endif /* * Global capture flags. */ #define RTEMS_CAPTURE_INIT (1u << 0) #define RTEMS_CAPTURE_ON (1U << 1) #define RTEMS_CAPTURE_NO_MEMORY (1U << 2) #define RTEMS_CAPTURE_TRIGGERED (1U << 3) #define RTEMS_CAPTURE_GLOBAL_WATCH (1U << 4) #define RTEMS_CAPTURE_ONLY_MONITOR (1U << 5) /* * Per-CPU capture flags. */ #define RTEMS_CAPTURE_OVERFLOW (1U << 0) #define RTEMS_CAPTURE_READER_ACTIVE (1U << 1) #define RTEMS_CAPTURE_READER_WAITING (1U << 2) /** * The number of tasks in a trigger group. */ #define RTEMS_CAPTURE_TRIGGER_TASKS (32) /** * @brief A capture timestamp. * * This is a nanosecond capture timestamp */ typedef uint64_t rtems_capture_time; /** * @brief Task id and mask for the from trigger. * * A from capture is a task id and a mask for the type of * from trigger we are interested in. The mask uses the same * bit maps as the flags field in the control structure. There * will only be a from type trigger if the flags in the control * structure has the specific *_BY bit set. */ typedef struct rtems_capture_from { rtems_name name; rtems_id id; uint32_t trigger; } rtems_capture_from; /** * @brief Capture control structure for a group of tasks. * * RTEMS control holds the trigger and watch configuration for a group of * tasks with the same name. The flags hold global control flags. * * The to_triggers fields holds triggers TO this task. The from_triggers holds * triggers from this task. The by_triggers is an OR or triggers which are * caused BY the task listed TO this task. The by_valid flag which entries * in by are valid. */ typedef struct rtems_capture_control { rtems_name name; rtems_id id; uint32_t flags; uint32_t to_triggers; uint32_t from_triggers; uint32_t by_triggers; uint32_t by_valid; rtems_capture_from by[RTEMS_CAPTURE_TRIGGER_TASKS]; struct rtems_capture_control* next; } rtems_capture_control; /** * The from_valid mask. */ #define RTEMS_CAPTURE_CONTROL_FROM_MASK(_s) \ (UINT32_C(1) << (RTEMS_CAPTURE_TRIGGER_TASKS - ((_s) + 1))) /** * Control flags. */ #define RTEMS_CAPTURE_WATCH (1U << 0) /** * Control triggers. */ #define RTEMS_CAPTURE_SWITCH (1 << 0) #define RTEMS_CAPTURE_CREATE (1 << 1) #define RTEMS_CAPTURE_START (1 << 2) #define RTEMS_CAPTURE_RESTART (1 << 3) #define RTEMS_CAPTURE_DELETE (1 << 4) #define RTEMS_CAPTURE_BEGIN (1 << 5) #define RTEMS_CAPTURE_EXITTED (1 << 6) #define RTEMS_CAPTURE_TERMINATED (1 << 7) #define RTEMS_CAPTURE_FROM_TRIGS (RTEMS_CAPTURE_SWITCH | \ RTEMS_CAPTURE_CREATE | \ RTEMS_CAPTURE_START | \ RTEMS_CAPTURE_RESTART | \ RTEMS_CAPTURE_DELETE) #define RTEMS_CAPTURE_TO_TRIGS (RTEMS_CAPTURE_SWITCH | \ RTEMS_CAPTURE_CREATE | \ RTEMS_CAPTURE_START | \ RTEMS_CAPTURE_RESTART | \ RTEMS_CAPTURE_DELETE | \ RTEMS_CAPTURE_BEGIN | \ RTEMS_CAPTURE_EXITTED) /** * Task flags. */ #define RTEMS_CAPTURE_TRACED (1U << 0) #define RTEMS_CAPTURE_INIT_TASK (1U << 1) #define RTEMS_CAPTURE_RECORD_TASK (1U << 2) /* * @brief Capture record. * * This is a record that is written into * the buffer. The events includes the priority of the task * at the time of the context switch. */ typedef struct rtems_capture_record { size_t size; uint32_t events; rtems_id task_id; rtems_capture_time time; } RTEMS_PACKED rtems_capture_record; /* * @brief Capture task record. * * This is a record that is written into * the buffer. The events includes the priority of the task * at the time of the context switch. */ typedef struct rtems_capture_task_record { rtems_name name; rtems_task_priority start_priority; uint32_t stack_size; } RTEMS_PACKED rtems_capture_task_record; /** * The capture record event flags. */ #define RTEMS_CAPTURE_REAL_PRI_EVENT_MASK UINT32_C (0x000000ff) #define RTEMS_CAPTURE_CURR_PRI_EVENT_MASK UINT32_C (0x0000ff00) #define RTEMS_CAPTURE_REAL_PRIORITY_EVENT (0) #define RTEMS_CAPTURE_CURR_PRIORITY_EVENT (8) #define RTEMS_CAPTURE_EVENT_START (16) #define RTEMS_CAPTURE_CREATED_BY_EVENT UINT32_C (0x00010000) #define RTEMS_CAPTURE_CREATED_EVENT UINT32_C (0x00020000) #define RTEMS_CAPTURE_STARTED_BY_EVENT UINT32_C (0x00040000) #define RTEMS_CAPTURE_STARTED_EVENT UINT32_C (0x00080000) #define RTEMS_CAPTURE_RESTARTED_BY_EVENT UINT32_C (0x00100000) #define RTEMS_CAPTURE_RESTARTED_EVENT UINT32_C (0x00200000) #define RTEMS_CAPTURE_DELETED_BY_EVENT UINT32_C (0x00400000) #define RTEMS_CAPTURE_DELETED_EVENT UINT32_C (0x00800000) #define RTEMS_CAPTURE_TERMINATED_EVENT UINT32_C (0x01000000) #define RTEMS_CAPTURE_BEGIN_EVENT UINT32_C (0x02000000) #define RTEMS_CAPTURE_EXITTED_EVENT UINT32_C (0x04000000) #define RTEMS_CAPTURE_SWITCHED_OUT_EVENT UINT32_C (0x08000000) #define RTEMS_CAPTURE_SWITCHED_IN_EVENT UINT32_C (0x10000000) #define RTEMS_CAPTURE_TIMESTAMP UINT32_C (0x20000000) #define RTEMS_CAPTURE_EVENT_END (29) /** * @brief Capture trigger modes * * The types of trigger modes that exist. */ typedef enum rtems_capture_trigger_mode { rtems_capture_to_any, rtems_capture_from_any, rtems_capture_from_to } rtems_capture_trigger_mode; /** * @brief Capture trigger. * * The types of triggers that exist. */ typedef enum rtems_capture_trigger { rtems_capture_switch, rtems_capture_create, rtems_capture_start, rtems_capture_restart, rtems_capture_delete, rtems_capture_begin, rtems_capture_exitted, rtems_capture_terminated } rtems_capture_trigger; /** * @brief Capture timestamp callout handler. * * This defines the callout handler to obtain a time stamp. The * value returned is time count since the last read. * */ typedef void (*rtems_capture_timestamp)(rtems_capture_time* time); /** * @brief Capture record lock context. * * This structure is used to lock a per CPU buffer when opeining recording. The * per CPU buffer is held locked until the record close is called. Locking * masks interrupts so use this lock only when needed and do not hold it for * long. * * The lock first masks the CPU interrupt before taking the interrupt * lock. This stops a thread context taking the lock and then an interrupt on * the same CPU attempting to take the lock so creating a deadlock. * */ typedef struct { rtems_interrupt_lock_context lock_context; rtems_interrupt_lock* lock; } rtems_capture_record_lock_context; /** * @brief Capture open * * This function initialises the realtime trace manager allocating the * capture buffer. It is assumed we have a working heap at stage of * initialisation. * * @param[in] size The number of capture records to define. * @param[in] timestamp The timestamp callout handler to use. If the * the handler is NULL a default nano-second timestamp * will be used. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_open (uint32_t size, rtems_capture_timestamp timestamp); /** * @brief Capture close * * This function shutdowns the tracer and release any claimed * resources. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_close (void); /** * @brief Capture control trace enable/disable. * * This function allows control of tracing at a global level. * * @param[in] enable The trace enable/disable flag. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_set_control (bool enable); /** * @brief Capture monitor enable/disable. * * This function enable the monitor mode. When in the monitor mode * the tasks are monitored but no data is saved. This can be used * to profile the load on a system. * * @param[in] enable The monitor enable/disable flag. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_set_monitor (bool enable); /* * @brief Capture flush trace buffer. * * This function flushes the trace buffer. The prime parameter allows the * capture engine to also be primed again. * * @param[in] prime The prime after flush flag. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_flush (bool prime); /** * @brief Capture add watch * * This function defines a watch for a specific task given a name. A watch * causes it to be traced either in or out of context. The watch can be * optionally enabled or disabled with the set routine. It is disabled by * default. * * @param[in] name The name of the @a capture_controls entry * @param[in] id The id of the @a capture_controls entry. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_watch_add (rtems_name name, rtems_id id); /** * @brief Capture delete watch. * * This function removes a watch for a specific task given a name. The task * description will still exist if referenced by a trace record in the trace * buffer or a global watch is defined. * * @param[in] name The name of the @a capture_controls entry * @param[in] id The id of the @a capture_controls entry. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_watch_del (rtems_name name, rtems_id id); /** * @brief Capture enable/disable watch. * * This function allows control of a watch. The watch can be enabled or * disabled. * * @param[in] name The name of the @a capture_controls entry * @param[in] id The id of the @a capture_controls entry. * @param[in] enable The enable/disable flag for the watch. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_watch_ctrl (rtems_name name, rtems_id id, bool enable); /** * @brief Capture enable/disable global watch. * * This function allows control of a global watch. The watch can * be enabled or disabled. A global watch configures all tasks below * the ceiling and above the floor to be traced. * * @param[in] enable The enable/disable flag for the watch. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_watch_global (bool enable); /** * @brief Get global watch state * * This function returns the global watch state. * * @retval This method returns true if the global watch * is on. Otherwise, it returns false. */ bool rtems_capture_watch_global_on (void); /** * @brief Set watch ceiling. * * This function sets a watch ceiling. Events from tasks at or greater * than the ceiling priority are ignored. This is a simple way to * monitor an application and exclude system tasks running at a higher * priority level. * * @param[in] ceiling specifies the priority level immediately above * that at which events from tasks are not captured. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_watch_ceiling (rtems_task_priority ceiling); /** * @brief Get watch ceiling. * * This function gets the watch ceiling. * * @retval The priority level immediately above that at which events * from tasks are not captured. */ rtems_task_priority rtems_capture_watch_get_ceiling (void); /** * @brief Capture set watch floor. * * This function sets a watch floor. Tasks at or less than the * floor priority are not watched. This is a simple way to monitor * an application and exclude system tasks running at a lower * priority level. * * @param[in] floor specifies the priority level immediately below * that at which events from tasks are not captured. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_watch_floor (rtems_task_priority floor); /** * @brief Capture set watch floor * * This function gets the watch floor. * * @retval The priority level immediately below * that at which events from tasks are not captured. */ rtems_task_priority rtems_capture_watch_get_floor (void); /** * @brief Capture set trigger * * This function sets a trigger. * * This set trigger routine will create a trace control for the * target task. The task list is searched and any existing tasks * are linked to the new control. * * We can have a number of tasks that have the same name so we * search using names. This means a number of tasks can be * linked to single control. * * Some events captured such as context switch include two * tasks. These are referred to as being "from" and "to" * Some events may only have one task specified. * * @param[in] from_name specifies the name of the from task. * @param[in] from_id specifies the id of the from task. * @param[in] to_name specifies the name of the to task. * @param[in] to_id specifies the id of the to task. * @param[in] mode specifies the trigger mode. * @param[in] trigger specifies the type of trigger. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_set_trigger (rtems_name from_name, rtems_id from_id, rtems_name to_name, rtems_id to_id, rtems_capture_trigger_mode mode, rtems_capture_trigger trigger); /** * @brief Capture clear trigger. * * This function clears a trigger. * * This clear trigger routine will not clear a watch. * * @param[in] from_name specifies the name of the from task. * @param[in] from_id specifies the id of the from task. * @param[in] to_name specifies the name of the to task. * @param[in] to_id specifies the id of the to task. * @param[in] mode specifies the trigger mode. * @param[in] trigger specifies the type of trigger. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_clear_trigger (rtems_name from_name, rtems_id from_id, rtems_name to_name, rtems_id to_id, rtems_capture_trigger_mode mode, rtems_capture_trigger trigger); /** * @brief Capture read records from capture buffer * * This function reads a number of records from the capture buffer. * * The function returns the number of record that is has that are * in a continous block of memory. If the number of available records * wrap then only those records are provided. This removes the need for * caller to be concerned about buffer wrappings. If the number of * requested records cannot be met due to the wrapping of the records * less than the specified number will be returned. * * The user must release the records. This is achieved with a call to * rtems_capture_release. Calls this function without a release will * result in at least the same number of records being released. * * @param[in] cpu The cpu number that the records were recorded on * @param[out] read will contain the number of records read * @param[out] recs The capture records that are read. * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_read (uint32_t cpu, size_t* read, const void** recs); /** * @brief Capture release records. * * This function releases the requested number of record slots back * to the capture engine. The count must match the number read. * * @param[in] count The number of record slots to release * * @retval This method returns RTEMS_SUCCESSFUL if there was not an * error. Otherwise, a status code is returned indicating the * source of the error. */ rtems_status_code rtems_capture_release (uint32_t cpu, uint32_t count); /** * @brief Capture filter * * This function this function specifies if the given task and events should be * logged. * * @param[in] task specifies the capture task control block * @param[in] events specifies the events * * @retval This method returns true if this data should be filtered from the * log. It returns false if this data should be logged. */ bool rtems_capture_filter (rtems_tcb* task, uint32_t events); /** * @brief Capture returns the current time. * * This function returns the current time. If a handler is provided * by the user the time is gotten from that. * * @param[in] time specifies the capture time * * @retval This method returns a nano-second time if no user handler * is provided. Otherwise, it returns a resolution defined by the handler. */ void rtems_capture_get_time (rtems_capture_time* time); /** * @brief Capture get event text. * * This function returns a string for an event based on the bit in the * event. The functions takes the bit offset as a number not the bit * set in a bit map. * * @param[in] event specifies the event to describe * * @retval This method returns a string description of the given event. */ const char* rtems_capture_event_text (int event); /** * @brief Capture initialize task * * This function initializes capture control in the tcb. * * @param[in] tcb is the task control block for the task */ void rtems_capture_initialize_task (rtems_tcb* tcb); /** * @brief Capture record task. * * This function records a new capture task record. * * @param[in] tcb is the task control block for the task */ void rtems_capture_record_task (rtems_tcb* tcb); /** * @brief Capture record lock. * * This does a lock acquire which will remain in effect until * rtems_capture_record_unlock is called. * * @param[out] context specifies the record context */ void rtems_capture_record_lock (rtems_capture_record_lock_context* context); /** * @brief Capture record unlock. * * This unlocks the record lock. * * @param[in] context specifies the record context */ void rtems_capture_record_unlock (rtems_capture_record_lock_context* context); /** * @brief Capture record open. * * This function allocates a record and fills in the header information. It * does a lock acquire which will remain in effect until * rtems_capture_record_close is called. The size is the amount of user data * being recorded. The record header is internally managed. * * @param[in] task specifies the caputre task block * @param[in] events specifies the events * @param[in] size specifies the user's capture data size * @param[out] context specifies the record context * * @retval This method returns a pointer to the next location in * the capture record to store data. */ void* rtems_capture_record_open (rtems_tcb* task, uint32_t events, size_t size, rtems_capture_record_lock_context* context); /** * @brief Capture record close. * * This function closes writing to capure record and releases the lock that was * held on the per CPU buffer. * * @param[out] context specifies the record context */ void rtems_capture_record_close (rtems_capture_record_lock_context* context); /** * @brief Capture append to record to the per CPU buffer. * * This function appends data of a specifed size into a capture buffer. * * @param[in] rec specifies the next write point in the capture record * @param[in] data specifies the data to write * @param[in] size specifies the size of the data * * @retval This method returns the next write point in the capture record. */ static inline void* rtems_capture_record_append (void* rec, const void* data, size_t size) { memcpy (rec, data, size); return ((uint8_t*) rec) + size; } /** * @brief Capture read a record from the per CPU buffer. * * This function reads data of a specifed size from a capture buffer. * * @param[in] rec specifies the next read point in the capture record * @param[in] data specifies where to write the data * @param[in] size specifies the size of the data * * @retval This method returns the next write point in the capture record. */ static inline void* rtems_capture_record_extract (const void* rec, void* data, size_t size) { memcpy (data, rec, size); return ((uint8_t*) rec) + size; } /** * @brief Capture task recorded * * This function returns true if this task information has been * recorded. * * @param[in] tcb is the task control block for the task */ static inline bool rtems_capture_task_recorded (rtems_tcb* tcb) { return ((tcb->Capture.flags & RTEMS_CAPTURE_RECORD_TASK) != 0); } /** * @brief Capture task initialized * * This function returns true if this task information has been * initialized. * * @param[in] tcb is the task control block for the task */ static inline bool rtems_capture_task_initialized (rtems_tcb* tcb) { return ((tcb->Capture.flags & RTEMS_CAPTURE_INIT_TASK) != 0); } /** * @brief Capture get task id. * * This function returns the task id. * * @param[in] task The capture task. * * @retval This function returns the task id. */ static inline rtems_id rtems_capture_task_id (rtems_tcb* tcb) { return tcb->Object.id; } /** * @brief Capture get task API. * * This function returns the task API as an int. * * @param[in] task The capture task. * * @retval This function returns the task API as an int. */ static inline int rtems_capture_task_api (rtems_id id) { return _Objects_Get_API (id); } /** * @brief Capture get task state. * * This function returns the task state. * * @param[in] task The capture task. * * @retval This function returns the task state. */ static inline States_Control rtems_capture_task_state (rtems_tcb* tcb) { if (tcb) return tcb->current_state; return 0; } /** * @brief Capture get task name. * * This function returns the task name. * * @param[in] task The capture task. * * @retval This function returns the task name. */ static inline rtems_name rtems_capture_task_name (rtems_tcb* tcb) { rtems_name name; rtems_object_get_classic_name( tcb->Object.id, &name ); return name; } /** * @brief Capture get task flags. * * This function returns the task flags. * * @param[in] task The capture task. * * @retval This function returns the task flags. */ static inline uint32_t rtems_capture_task_flags (rtems_tcb* tcb) { return tcb->Capture.flags; } /** * @brief Capture get task control * * This function returns the task control if present. * * @param[in] task The capture task. * * @retval This function returns the task control if present. */ static inline rtems_capture_control* rtems_capture_task_control (rtems_tcb* tcb) { return tcb->Capture.control; } /** * @brief Capture get task control flags. * * This function returns the task control flags if a control is present. * * @param[in] task The capture task. * * @retval This function returns the task control flags if a control is present. */ static inline uint32_t rtems_capture_task_control_flags (rtems_tcb* tcb) { rtems_capture_control* control = tcb->Capture.control; if (!control) return 0; return control->flags; } /** * @brief Capture get task start priority. * * This function returns the tasks start priority. The tracer needs this * to track where the task's priority goes. * * @param[in] task The capture task. * * @retval This function returns the tasks start priority. The tracer needs this * to track where the task's priority goes. */ static inline rtems_task_priority rtems_capture_task_start_priority (rtems_tcb* tcb) { return _RTEMS_Priority_From_core (_Thread_Scheduler_get_home( tcb ), tcb->Start.initial_priority); } /** * @brief Capture get task real priority. * * This function returns the tasks real priority. * * @param[in] task The capture task. * * @retval This function returns the tasks real priority. */ static inline rtems_task_priority rtems_capture_task_real_priority (rtems_tcb* tcb) { return _Thread_Get_unmapped_real_priority (tcb); } /** * @brief Capture get task current priority. * * This function returns the tasks current priority. * * @param[in] task The capture task. * * @retval This function returns the tasks current priority. */ static inline rtems_task_priority rtems_capture_task_curr_priority (rtems_tcb* tcb) { return _Thread_Get_unmapped_priority (tcb); } /** * @brief Capture get control list. * * This function returns the head of the list of controls in the * capture engine. * * @retval This function returns the head of the list of controls in the * capture engine. */ rtems_capture_control* rtems_capture_get_control_list (void); /** * @brief Capture get next capture control. * * This function returns the pointer to the next control in the list. The * pointer NULL terminates the list. * * @param[in] control the current capture control. * * @retval This function returns the pointer to the next control in the list. The * pointer NULL terminates the list. */ static inline rtems_capture_control* rtems_capture_next_control (rtems_capture_control* control) { return control->next; } /** * @brief Capture get capture control id. * * This function returns the control id. * * @param[in] control the capture control. * * @retval This function returns the control id. */ static inline rtems_id rtems_capture_control_id (rtems_capture_control* control) { return control->id; } /** * @brief Capture get capture control name. * * This function returns the control name. * * @param[in] control the capture control. * * @retval This function returns the control name. */ static inline rtems_name rtems_capture_control_name (rtems_capture_control* control) { return control->name; } /** * @brief Capture get capture control flags. * * This function returns the control flags. * * @param[in] control the capture control. * * @retval This function returns the control flags. */ static inline uint32_t rtems_capture_control_flags (rtems_capture_control* control) { return control->flags; } /** * @brief Capture get capture control to triggers. * * This function returns the task control to triggers. * * @param[in] control the capture control. * * @retval This function returns the task control to triggers. */ static inline uint32_t rtems_capture_control_to_triggers (rtems_capture_control* control) { return control->to_triggers; } /** * @brief Capture get capture control from triggers. * * This function returns the task control from triggers. * * @param[in] control the capture control. * * @retval This function returns the task control from triggers. */ static inline uint32_t rtems_capture_control_from_triggers (rtems_capture_control* control) { return control->from_triggers; } /** * @brief Capture get capture control by triggers. * * This function returns the task control by triggers. * * @param[in] control the capture control. * * @retval This function returns the task control by triggers. */ static inline uint32_t rtems_capture_control_all_by_triggers (rtems_capture_control* control) { return control->by_triggers; } /** * @brief Capture get capture control valid by flags. * * This function returns the control valid BY flags. * * @param[in] control The capture control. * @param[in] slot The slot. * * @retval This function returns the control valid BY flags. */ static inline int rtems_capture_control_by_valid (rtems_capture_control* control, int slot) { return control->by_valid & RTEMS_CAPTURE_CONTROL_FROM_MASK (slot); } /** * @brief Capture get capture control by task name. * * This function returns the control @a by task name. * * @param[in] control The capture control. * @param[in] by The by index. * * @retval This function returns the control @a by task name. */ static inline rtems_name rtems_capture_control_by_name (rtems_capture_control* control, int by) { if (by < RTEMS_CAPTURE_TRIGGER_TASKS) return control->by[by].name; return control->by[0].name; } /** * @brief Capture get capture control by task id. * * This function returns the control @a by task id * * @retval This function returns the control @a by task id. */ static inline rtems_id rtems_capture_control_by_id (rtems_capture_control* control, int by) { if (by < RTEMS_CAPTURE_TRIGGER_TASKS) return control->by[by].id; return control->by[0].id; } /** * @brief Capture get capture control by task triggers. * * This function returns the control @a by task triggers. * * @retval This function returns the control @a by task triggers. */ static inline uint32_t rtems_capture_control_by_triggers (rtems_capture_control* control, int by) { if (by < RTEMS_CAPTURE_TRIGGER_TASKS) return control->by[by].trigger; return control->by[0].trigger; } /** * @brief Capture get capture control count. * * This function returns the number of controls the capture * engine has. * * @retval This function returns the number of controls the capture * engine has. */ static inline uint32_t rtems_capture_control_count (void) { rtems_capture_control* control = rtems_capture_get_control_list (); uint32_t count = 0; while (control) { count++; control = rtems_capture_next_control (control); } return count; } #ifdef __cplusplus } #endif /**@}*/ #endif